Diameter of ring=34.1/3.414=9.9cm ( approx 10 cm)
R = r*L/A where: R = resistance r = material resistivity L = length A = area Since you are doubling the diameter, you are increasing the area by a factor of 4, so Y will have 1/4 the resistance of X.
Current (measured by an ammeter) and Voltage (measured by a voltmeter) R= V/I Resistance equals voltage divided by current ================================ That's wonderful, but the measurement doesn't "affect" the resistance of the wire. The factors that do "affect" the resistance ... i.e. determine what the resistance will be ... are -- substance of which the wire is composed -- dimensions of the wire: thickness and length.
B) On the pattern piece
That depends on the load.
=== === This answer assumes the wire is properly insulated along its length so that it does not have any shorted turns if it is wrapped around a core made of a good insulator such as wood or plastic. Whether or not it is wound into a coil the resistance of a piece of copper wire depends on how long and thin it is. The thinner and longer the wire, the higher the resistance it will have and the less current it will draw from the power source.A very short piece of thick wire will have such a low resistance it will take so much current that it will behave just like a short circuit. (Whether it is insulated or coiled even a little bit will make no difference.)If a sufficiently long length of insulated wire is made into a coil it will act as an inductor. If it is wound around a cardboard or wooden core containing a piece of iron, the iron would make the coil have a much higher inductance than for just air.
Approximately 127 cm length of a wire with a diameter of 1mm can be used to make a 1cm cube of metal.
Every person's body is made differently. So each person's trachea will be a different length and diameter. However the average trachea length is 9-15cm and the average diamter is 21-27mm See below for source
That depends entirely on what material it's made from ! The dimensions are irrelevant unless you tell us what it's made from !
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The material from which the conductor is made, the length of the conductor, the diameter of the conductor and the temperature of the conductor are all things that impact its resistance.
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Yes, a piece of glass or plastic rod can be used as a cylindrical lense. If more precision or a nonstandard diameter is needed then a custom made cylindrical lense can be made of either glass or plastic to order.
Infinitely many. Each point on the circumference of a semicircle can be one end of a diameter and there are infinitely many points in a line segment of any length.
R = r*L/A where: R = resistance r = material resistivity L = length A = area Since you are doubling the diameter, you are increasing the area by a factor of 4, so Y will have 1/4 the resistance of X.
Circumference of a circle divided by pi is equal to the circle's diameter.
Young's modulus or modulus of elasticity is a property of the material. As in both the wires we have copper material the young's modulus will be the same. It does not get altered with length or area of cross section.
Length of stock, and what it is made of, are obvious. Some stocks have a "Monte Carlo" cheekpiece. Some are Mannlicher style, and go all the way to the muzzle. Some are one piece, some two piece,